Title :
Optimal Control of a Nine-Level Class-D Audio Amplifier Using Sliding-Mode Quantization
Author :
Yu, Shiang-Hwua ; Tseng, Ming-Hung
Author_Institution :
Dept. of Electr. Eng., Nat. Sun Yat-Sen Univ., Kaohsiung, Taiwan
fDate :
7/1/2011 12:00:00 AM
Abstract :
This paper presents an optimal control scheme for a multilevel inverter working for audio power amplification. The proposed control scheme comprises two loops of feedback around a sliding-mode quantizer. The double-loop feedback generates a continuous equivalent control signal, while the quantizer that operates in the sliding mode converts the equivalent control signal into a staircase voltage waveform used to drive a loudspeaker through an LC filter for audio signal tracking. The control scheme is optimized to reduce the frequency weighted tracking error and the equivalent control signal simultaneously, compromising between a satisfactory performance and a wide stable input range. With the proposed design, a nine-level class-D audio amplifier is built and tested, which exhibits high-robustness and high-quality audio reproduction.
Keywords :
audio signal processing; audio-frequency amplifiers; invertors; optimal control; power amplifiers; quantisation (signal); LC filter; audio power amplification; audio reproduction; audio signal tracking; continuous equivalent control signal; double-loop feedback; frequency weighted tracking error; loudspeaker; multilevel inverter; nine-level class-D audio amplifier; optimal control; sliding-mode quantization; sliding-mode quantizer; staircase voltage waveform; Gain; Inverters; Modulation; Noise; Quantization; Switches; Class-D audio power amplifier; multilevel inverter; optimal control; predictive control; sliding-mode control; sliding-mode quantization;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2010.2077611
